Abstract: A system for receiving an electric charge from a charge-providing vehicle (CPV) and a method of using the system. A method includes: receiving, at a target vehicle, a message from a charge-providing vehicle (CPV), the message identifying a rendezvous location; operating in an autonomous follow mode at or after the location; and receiving, at a battery, an electrical charge from the CPV.

Abstract: A battery system includes a housing, a battery array inside the housing, a first wiring path that bypasses the battery array, and a second wiring path electrically connected to the battery array. The battery system is adapted to charge a battery pack of an electrified vehicle using AC power, DC power, or both.

Abstract: An exemplary charging method includes charging a storage battery of a mule vehicle as a tow vehicle tows the mule vehicle to a stranded vehicle. The storage battery configured to be electrically coupled to a traction battery of an electrified vehicle to charge the traction battery. An exemplary charging assembly includes a mule vehicle. A storage battery of the mule vehicle charges as the mule vehicle is towed to a stranded vehicle. The storage battery is configured to be electrically coupled to a traction battery of the electrified vehicle to charge the traction battery.

Abstract: An exemplary charging method includes charging a storage battery of a mule vehicle as a tow vehicle tows the mule vehicle to a stranded vehicle. The storage battery configured to be electrically coupled to a traction battery of an electrified vehicle to charge the traction battery. An exemplary charging assembly includes a mule vehicle. A storage battery of the mule vehicle charges as the mule vehicle is towed to a stranded vehicle. The storage battery is configured to be electrically coupled to a traction battery of the electrified vehicle to charge the traction battery.

Abstract: An exemplary method includes conditioning an electrified vehicle to maintain a target conditioning level using power from a grid source. The conditioning either lasts from a conclusion of a first drive cycle to the beginning of a second drive cycle that is subsequent the first drive cycle, or lasts from a conclusion of a first drive cycle for set time.

Abstract: An exemplary electrified vehicle assembly includes a charging system having a luminescent portion. The charging system is configured to electrically couple together a charging station and an electrified vehicle.

Abstract: A method according to an exemplary aspect of the present disclosure includes, among other things, conditioning a battery assembly of an electrified vehicle to a desired thermal level in a manner that extends useful life of the battery assembly, the conditioning step including heating or cooling the battery assembly with a thermal management system operable during both vehicle ON conditions and vehicle OFF conditions.

Abstract: A battery system includes a housing, a battery array inside the housing, a first wiring path that bypasses the battery array, and a second wiring path electrically connected to the battery array. The battery system is adapted to charge a battery pack of an electrified vehicle using AC power, DC power, or both.

Abstract: An exemplary electrified vehicle assembly includes a charging system having a luminescent portion. The charging system is configured to electrically couple together a charging station and an electrified vehicle.

Abstract: A method according to an exemplary aspect of the present disclosure includes, among other things, conditioning a battery assembly of an electrified vehicle to a desired thermal level in a manner that extends useful life of the battery assembly, the conditioning step including heating or cooling the battery assembly with a thermal management system operable during both vehicle ON conditions and vehicle OFF conditions.

Abstract: A vehicle includes a transmission having gears lubricated by oil and a variable voltage converter (VVC). The VVC includes an inductor arranged such that the oil contacts the inductor. The vehicle also includes at least one controller configured to operate the VVC to output a desired power. The controller, in response to a temperature of the oil being less than a threshold, alters a voltage and current of the VVC while maintaining the desired power to increase heat output by the inductor.

Abstract: An exemplary method includes conditioning an electrified vehicle to maintain a target conditioning level using power from a grid source.

Abstract: A vehicle includes a transmission having gears lubricated by oil and a variable voltage converter (VVC). The VVC includes an inductor arranged such that the oil contacts the inductor. The vehicle also includes at least one controller configured to operate the VVC to output a desired power. The controller, in response to a temperature of the oil being less than a threshold, alters a voltage and current of the VVC while maintaining the desired power to increase heat output by the inductor.

Abstract: An example emissions-control system of a vehicle includes a reservoir configured to contain a reductant solution, and an SCR device disposed in the exhaust system and configured to consume the reductant solution. The example emissions-control system further includes a base sensor responsive to whether a volume of the reductant solution exceeds a base volume, wherein the base volume is a sum of a dead volume of the reservoir plus a standard volume, and one or more elevated sensors corresponding to one or more elevated volumes. The example emissions-control system further includes an emissions sensor responsive to a NOX level in the exhaust system, and a misformulation indicator operatively coupled to the emissions sensor and to at least one of the base sensor and an elevated sensor, and configured to indicate when an excess NOX emission follows, within an interval, an increase in the volume of the reductant solution above the base volume or an elevated volume.